Restricted motion of photoexcited bacteriorhodopsin in purple membrane containing ethanol.

AUTOR(ES)

Kikukawa, T

RESUMO

The molecular motion of retinal within the purple membrane was investigated by flash-induced absorption anisotropies with or without ethanol. In the absence of ethanol, the measured anisotropies at several wavelengths exhibited almost the same slow decay. This slow decay was attributed to only the rotation of purple membrane sheet itself in the aqueous suspension. In the presence of ethanol, however, we observed the wavelength-dependent anisotropies. The fluidity of the purple membrane, investigated with a fluorescence anisotropy method, was increased by the addition of ethanol. These facts indicated that the characteristic motion of bacteriorhodopsin is induced in perturbed purple membrane with ethanol. The data analysis was performed, taking account of the overlapping of absorption from ground-state bacteriorhodopsin and photointermediates. The results showed that the rotational motion of photointermediates within the membrane was more restricted than that of nonexcited bacteriorhodopsin. The addition of ethanol facilitated the rotation of nonexcited protein, whereas it did not significantly affect the motion of photointermediates. The restricted motion of photointermediates is probably caused by a conformational change in them, which may hinder the rotation of monomer protein and/or induce the interaction between photointermediate and neighboring proteins.

Documentos Relacionados

• Electrooptical measurements on purple membrane containing bacteriorhodopsin mutants.
• Trans-unsaturated lipid dynamics: modulation of dielaidoylphosphatidylcholine acyl chain motion by ethanol.
• Phosphatidylinositol from ethanol-fed rats confers membrane tolerance to ethanol.
• Saccharomyces cerevisiae membrane sterol modifications in response to growth in the presence of ethanol.
• Molecular orientation of bacteriorhodopsin within the purple membrane of Halobacterium halobium.